Citation:

Frick, W E. DIVERSE MODELS FOR SOLVING CONTRASTING OUTFALL PROBLEMS. Presented at 4th International Exhibition and Conference on Environmental Technology, Athens, Greece, January 30-February 4, 2003.

Impact/Purpose:

A main objective of this task is to combine empirical and physical mechanisms in a model, known as Visual Beach, that

● is user-friendly

● includes point and non-point sources of contamination

● includes the latest bacterial decay mechanisms

● incorporates real-time and web-based ambient and atmospheric and aquatic conditions

● and has a predictive capability of up to three days to help avert potential beach closures.

The suite of predictive capabilities for this software application can enhance the utility of new methodology for analysis of indicator pathogens by identifying times that represent the highest probability of bacterial contamination. Successful use of this model will provide a means to direct timely collection of monitoring samples, strengthening the value of the short turnaround time for sampling. Additionally, in some cases of known point sources of bacteria, such as waste water treatment plant discharges, the model can be applied to help guide operational controls to help prevent resulting beach closures.

Description:

Mixing zone initial dilution and far-field models are useful for assuring that water quality criteria will be met when specific outfall discharge criteria are applied. Presented here is a selective review of mixing zone initial dilution models and relatively simple far-field transport models. An argument is made for the continued diversity of model development, based on the complexity of the problems addressed, theoretical and experimental uncertainty, model accessibility, and the long-term outlook for improvement.

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